Food mixer



Nov. 4, 1952 w. VAN GUILDER FOOD MIXER 6 Sheets-Sheet 1 Filed Jan. 3 s 1950 A TTO/PNEY INVENTORJ- WALTER VAN GUILDER y/flag wzm NE 0mm m5 m5 Em mmm Ohm mwm Nov. 4, 1952 w. VAN GUILDER 2,615,673

FOOD MIXER Filed Jan. 5, 1950 6 Sheets-Sheet 2 FIGB 8 WALTER VAN GUILDER fibzzu; a 6M IN VE/V TOR.-

Nov. 4, 1952 w. VAN GUlLDER FOOD MIXER 6 Sheets-Sheet 3 Filed Jan. 3. 1950 ATTORNEY Nov. 4, 1952 w. VAN GUILDER FOOD MIXER 6 Sheets-Sheet 4 Filed Jan. 3. 1950 8N NE 9% N @E ITTORNEY Nov. 4, 1952 w. VAN GUILDER 2,616,673

FOOD MIXER Filed Jan. 3. 1950 6 Sheets-Sheet 6 /NVENTOR.'- WALTER VAN GUILDER Patented Nov. 4, 1952 FOOD MIXER Walter Van Guilder, River Forest, Ill., assignor to General Mills, Inc., a corporation of Delaware Application January 3, 1950, Serial No. 136,572

28 Claims.

The present invention relates to food mixers and particularly to improvements in household food mixers of the genera1 type shown in the copending application of John N. Polivka and George T. Scharienberg, Serial No. 136,571, filed January 3, 1950, and assigned to the same assignee as the present invention.

This new and improved type of food mixer includes a base, a bowl support at on end of the base, and an upright motor housing mounted at the other end of the base and having a gear casing projecting above the bowl support. The motor housing is movably mounted on the base for movement between operating and retracted positions with respect to the bowl support. In this type of mixer, the motor is mounted within the upright motor housing with the motor axis substantially vertical. Means are provided for urging the housing to retracted position, and a releasable latch is also utilized to hold the housing in operative position.

It is one object of the present invention to provide an improved food mixer in which the bowl support has novel clamping mechanism for retaining the mixing bowl firmly in position.

Another object is a food mixer in which a beater-supporting housing is normally urged from operating to retracted position and is provided with an improved releasable latch normally retaining the housing in operating position.

A further object is the provision of such a mixer in which the latch members on the base and housing are capable of relative adjustment to determine the exact operating position of the hous- Still another object is the provision of such a mixer with adjustable stop means cooperating with the latch means to assist in determining the operating position of the mixer.

A further object is an improved connection between the bowl-clamping mechanism and the latching mechanism of such a device.

A still further object of the invention is an improved retarding or brake mechanism for controlling the movement of the housing between operating and retracted positions and for assisting in determining at least one of such position Another object of the invention is an improved cover construction for an open-sided mixer casing.

A further object is an improved cover construction in which a cover-fastening means is located and arranged to provide a retaining recess for attachment of an accessory to the mixer.

Still another object is an improved mixer casing construction in which a removable cover is provided with a separate insert or cover plate and in which the cover and insert are secured to the mixer housing and casing in novel fashion.

A still further object of the invention is an improved arrangement of the speed control mechanism in a mixer of the general type described above, the speed contrcl levers being located in the beater supporting casing which projects over the bowl support from th vertical motor housing.

Another object of the invention is the provision of an improved arrangement of parts in a food mixer, designed for simple and economical construction.

Other objects and advantages will be apparent from the following specification in which a preferred form of the invention has been described with particular reference to the accompanying drawings.

In these drawings,

Figure 1 is a side elevation, with certain parts shown in section and certain parts broken away for clearness, showing a food mixer according to the invention.

Fig. 2 is a partial perspective view of the bottom of the mixer showing details of the bowlclamping and latch mechanism in bowl-clamping position.

Fig. 3 is a partial bottom view of the mechanism of Fig. 2 with the parts in bowl-releasing position.

Fig. 4 is a partial side elevation, with certain parts broken away, showing the mounting of the housing for tilting movement, and also showing details of the brake or retarding mechanism which controls such movement.

Fig. 5 is a partial front perspective of the base, bowl support, pedestal, and movable motor housing of the invention.

Fig. 6 is a partial sectional view on the line E5 of Fig. 5.

Fig. 7 is a schematic rear perspective view showing details of the governor control mechanism and driving connections in a mixer of Fig. 1.

Fig. 8 is a top view of the mixer with the cover removed, showing details of the governor control mechanism.

Fig. 9 is a perspective view of the top of the mixer showing the assembled cover in position.

Fig. 10 is a perspective view of the removable insert for the cover.

Fig. 11 is a perspective View of the removable cover itself, without the insert, and

Fig. 12 is a sectional view of the insert on the line i2l2 of Fig. 10,

As shown in Fig. 1, the mixer includes a base provided with a depending peripheral skirt or flange 22. The base is provided with supporting legs 24 of rubber or resilient material for supporting the base 20 with its lower edge 28 spaced slightly above the table or other support in order to provide a ventilation opening beneath the peripheral edge of the base.

At one end of the base is located a bowl support, the circular bottom surface of which is indicated at 28. This bowl support is recessed below the upper surface of base 2t and includes the vertical wall portion 30 between the top of the base and the bottom 28 of the bowl support. Thus a cupshaped or cylindrical recess is provided which is designed to accommodate the base flange 32 of a suitable mixing bowl 34. Bowl 34 may be provided with a carrying handle 36 for convenience in manipulation.

As shown particularly in Figs. 2 and 3, the bottom of the base 2% beneath bowl support 28 is provided with a plurality of radial slots 38. Slidably mounted in these slots are radial clamping members it, 42, and 2 3. Each of these clamping members is substantially identical in construction and clamp M, for example, includes an upwardly extending portion it (Fig. 1) having a clamping hook d3 projecting inwardly through a slot st in the bowl support wall 33. Clamping hooks 48 are designed to engage the annular recess til above the lower flange 32 of the mixing bowl 34. Thus when the radially slidable clamps are moved toward the center of the bowl support the clamping hooks will firmly engage the base of the bowl and will prevent inadvertent removal or rotation of the bowl.

The clamping members to, s2, and M are provided with depending pins or projections 52, 5t, and 56 respectively. These pins project downwardly into cooperating cam slots 58, Iii], and 62 in a rotatable control plate 64 mounted beneath the base. The control plate 6 3 is mounted on the vertical bolt 66 having its axis coincident with the center of the bowl and bowl support.

Bolt 66 extends downwardly through the bottom 28 of the bowl support and a retaining nut 68 is threaded on the lower end of bolt 66 to hold the control plate (54 in position. A slot it in the lower end if the bolt 66 facilitates adjustment of the bolt and nut from the bottom of the mixer.

As shown in the drawings, the control plate 64 overlies the radial clamps 4t, 42, and 411 and thus holds these clamps in the radial slots 38. Thus the single retaining nut 68 serves both to hold the control plate 64 in assembled position, and also maintains the remaining portions of the clamping mechanism in place. Slots 58, 60, and 62 extend in a substantially circumferential direction, but are angularly inclined with respect to an exact circumferential path in order that the interengagement between the slots and the respective actuating pins 52, 54, and 55 will cause the desired radial movement of clamps 4G, 42, and 44.

The control plate 6A is provided with a lateral extension 12 which is upwardly offset at I4 and has a projecting end It extending through a slot I8 in the front skirt of the base 2t. An external control knob or handle 80 is mounted on the outer end of projection 16. Manipulation of the knob 88 and of the control plate to the position shown in Fig. 2, will cause inward radial movement of the clamps 4t, 42, and M to bowl-clamping position as shown in Fig. 1. On the other hand, movement of the control knob 86 to the opposite end of slot 78, i. e., to the position of Fig. 3, will cause the clamping members to move radially outwardly to their bowl-releasing position.

According to the present invention the bowlclamping mechanism includes means resiliently urging the clamping mechanism to at least the bowl-clamping position. In this particular case the control plate is provided with a radial lever arm 82 having an opening in its outer end through which one end at of the spring-supporting rod 86 may be inserted. Rod 36, at its other end, is supported in an elongated slot 88 in one arm at of a bracket member 92 fastened by a bolt 94 to a threaded boss 95 on the under side of base 28. A spring locking collar 98 on downwardly projecting end 84 of rod 86 prevents disengage ment of the rod end from radial lever arm 82.

A compression spring Hill is mounted on rod as between the bracket arm 99 and the lever 82. The location of the parts is such that spring I00 serves as an overcenter spring and resiliently urges the lever arm 82 in one direction or the other from the center line I02 between the axis if rotation of control plate 64 and the supporting slot 88 for rod 86. Thus the overcenter spring Iill will hold the parts in either the position of Fig. 2 or the position of Fig. 3 once the operator has moved the control knob 89 past the dead center position toward either of said bowl-clamping or bowl-releasing positions.

At the other end of base 2t opposite the bowl support 23, there is a stationary hollow pedestal Hi l on which the motor housing is movably mounted. Pedestal It l includes a front wall I05, a rear wall I Q8, and side walls III) and H2 respectively-(Fig. 4) Front wall I06 is provided with a latch opening H t. It will be noted that this latch opening is on the side of the pedestal facing the mixing bowl 3 3, i. e., facing toward what has been termed, for convenience, the front of the mixer.

A latch I It is movably mounted within pedestal ill-4, and is pivoted at [I8 to a latch support I20. The latch includes a retaining hook I22 located just inside the pedestal and in alignment with the latch opening HQ.

The latch support I29 is adjustably mounted on the under side of the base 2t by means of two attaching bolts I2l and I25. The under side of base 2% is provided with a supporting seat I28 for the latch support I28. This supporting seat includes a downwardly projecting fulcrum or bearing point I36 and upwardly inclined surfaces I32 extending on each side of the fulcrum I30 toward the attaching bolts I24 and I26. Thus the bolts I24 and IE may be adjusted to rock the latch support I20 on a horizontal axis at the bearing point Itil. This rocking movement in one direction is achieved by tightening bolt I 24 and loosening bolt I26, while rocking adjustment of the support in the opposite direction may be achieved by loosening bolt I24 and tightening bolt I26. This rocking adjustment of the latch support I20 may be used to move the pivot point N8 of latch IIIS vertically up and down to the desired position in which the latch hook I22'will determine the operating position of the movable motor housing and beater supporting casing de-- scribed below.

The latch support I29 includes longitudinal slots I34 and IE6 through which the bolts I24 and I26 respectively project. The provision of these slots thus makes it possible to adjust the latch support horizontally or longitudinally in the di- 5. rection of the slots. This longitudinal or sliding adjustment of the pivot point IIB also assists in determining the operative position of latch hook I22 and the housing which is held in operating position thereby.

Latch IIB includes a downwardly projecting arm I38 extending below the pivot point H8. A spring I40 is connected at one end I42 to the depending latch arm I38. The other end of spring I40 is connected at I44 to a suitable retaining bracket at the rear of the base and pedestal. Thus spring I40 normally urges latch II6 toward locking position as shown in Figs. 1 and 4.

In order to move the latch II6 to released or unlocked position, a connecting link I50 is provided. One end of connecting link I50 has a pin or rivet I48 received in a longitudinal or horizontal slot I46 in the depending arm I38 of lever II6. The other end of connecting link I50 extends in a non-radial recess I52 between the under side of base 20 and the upper surface of control plate 64 and carries a depending pin I54 engaging an eccentric opening or slot I56 in the control plate. The location and arrangement of the connecting link I50 and its respective connections to the latch IIS and control plate 64 are such that control plate opening I55 serves as a crank opening to move the connecting link longitudinally of the base in response to movement of knob 80 between bowl-clamping and bowl-releasing positions. When the clamping mechanism is moved to the bowl-clamping position of Fig. 2, the connecting link I50 is moved toward the rear of the base so that the spring I40 may hold the latch II6 in locking position. On the other hand, when the bowl-clamping mechanism is moved to the bowl-releasing position of Fig. 3, the slot I56 will engage pin I54 to move the connecting link I50 toward the front of the base and will thus rock the latch I I 6 on pivot I I8 to its unlocked position.

The provision of slot I46 in latch arm I38 makes it possible for the latch H6 to be rocked from locked to unlocked position just sufilciently to permit the latch hook I22 to engage a corresponding latch portion of the movable housing even though the bowl-clamping mechanism is in the locked or clamping position of Fig. 2. Thus, as shown in Fig. 4, when the bowl-clamping mechanism is clamped, the pin I48 will be at the front end of slot I46. (In Fig. 4 this is illustrated in the situation where the clamping mechanism has been moved to releasing position to permit movement of the motor housing to retracted position, and the clamping mechanism has then been returned to bowl-clamping position of Fig. 2. If the housing is now returned toward operating position, the cooperating latch member on the movable housing may engage the inclined cam surface I58 at the end of latch H6 and rock the latch against the resistance of spring I40 until the latch hook I22 again snaps into position to hold the housing in operating position. This limited movement of latch H6 is permitted by the horizontal slot I46 in depending arm I38.)

Above the pedestal I04 is located the movable motor housing I60. This housing includes a front wall I62, rear wall I64, and side walls I66 and I68. The front and side walls extend downwardly and overlap the corresponding front and side walls of the pedestal I04 as shown in the drawings. Thus, in Fig. l, the front wall I62 of the housing has a depending skirt I which extends in overlapping engagement downwardly along the front wall I06 of pedestal I04 so as to cover and conceal the latch opening II4 when the parts are in the position of Fig. 1. This depending skirt II0 carries the latching projection II2 which extends inwardly through latch opening II4 into engagement with the hook I22 of latch I I6 to retain the housing in operating position.

In order to support the housing on the pedestal for movement between its operating and retracted positions, the parts are hinged together by means of a substantially horizontal pivot I'I4. As shown particularly in Figs. 1 and 4, the axis of this pivot I14 is located at the rear of pedestal I04 and housing I60 and is also located substantially higher above base 20 than the height of the latch opening II4. Thus, as the housing I60 tilts upwardly and rearwardly about its axis I14, the latch projection I72 will move upwardly and forwardly away from front wall I06 of the pedestal and into the space between said irontwall and the bowl 34, as indicated by arrow I16. This arrangement and relative location of the latch mechanism and the pivot I'I4 makes it possible for the latch IIS and its associated parts to be located and concealed within the pedestal so that even after the skirt I10 moves upwardly, there are no latch portions projectin from the pedestal I04 for accidental engagement by the user.

Rigidly supported in the movable housing I60 is the motor or power unit L30 which is held in position by bolts I62 engaging suitable flanges on the motor I30 and housing I60. The motor shaft I84 is substantially vertical and is provided at its upper end with a driving slot I86 or other connecting means by which a suitable accessory may be directly driven.

The housing I60 includes a depending lever arm I88, which is connected at its lower end I90 to one or more springs I62. Spring I92, for example, may be connected to one channel or edge of the lever arm I88 at one end and may have its other end connected to a bracket I05 carried by a depending boss I96 on the under side of base 20. As shown in Fig. 3, another spring I98 may also be connected to lever arm I88 at one end, and may have its other end fastened to the same bracket 92 which supported one end of the overcenter spring mechanism for the bowl-clamping control plate. Springs I92 and I68 normally urge the lower end of bracket or lever I88 toward the front of the mixer and thus tend to rock the motor housing I60 upwardly and rearwardly from the operative position of Fig. 1 toward retracted position. The parts are held in the operating position of Fig. 1 by the engagement of latching hook I22 with latching projection II2.

Adjustable stop means are provided between the movable housing I60 and pedestal I04 in order to limit the movement of the housing toward the bowl support. In this case, the stop means includes a member 200 which is adjustably threaded in a boss 202 in the movable housing I60. The threaded bolt 200 includes a lower head 204 which engages the upper edge 206 of front wall I06 of pedestal I04 to limit clockwise rotation of the housing with respect to the pedestal as shown in Fig. 1. Above the boss 202 the stop member 200 may be provided with a lock nut 208. Relative adjustment of the stop member 200 will thus accordingly serve as an absolute limit for movement of the housing toward operative position. By suitable adjustment of member 200, engagement of the beater 2I0 supported by the movable housing against the surface of mixing 7 bowl 34 maybe -prevented. At the same time, the working clearance of the'beater 210 above the lower surface'ofthe bowl 34' may 'bereadily adjusted by vertical adjustment of the latch pivot H8 in the -manner previously described. 2 Since springslQZ and I98 atall times'urge the housing ltd in a. counterclockwisedirectionas viewed in Fig. 1, upward adjustment of the pivot point H8 for'latch H8 will obviously raise thebeater 2m slightly above the b'ottom of the bowl and vice versa. Thus the-relative adjustments provided for the latch support I28, in cooperation with the adjustable stop member-20o, make-it possible to controlabsolutely'the exact location of the beater parts with respect to the-bowLso that accidental engagementof the beater against the bowl is prevented and so that the proper working clearance is established between the beater and the bowl.

In order to limit the upwardmovement of the housing I60 to retractedposition, a stop chain 2 I2 is provided. On end of ihischain is fastened at 2 Hi to a bracket at the lowerrear end of base 28, while theother end of chain 212 'is connected to a bracket 256 on the motor I 88. The length of chain 212 is normally so adjusted that the housing 60 will tilt upwardly just far enough to lift the beater 218 to the upper portion of the mixing bowl. -At'the same time the chain is so adjusted'that'the front'skirt ilo of'the housing will still overlap slightly the upperedge 286 of the'pede'stal H34 so that the internal mechanism of the mixer is not exposed at this point. When chain'2l2 is released-or disconnected, the housing may then be tilted further to the position of Fig. 4 for convenience inassembly of certain portions of the devi e.

In order to assist in controlling the movement of the housing betweenoperating and retracted positions, a suitable retarding member or brake 2E8 is provided. 111 the form shown in'Fig. 4, the retarding'member 218 is in the form of a ball which is seated in acircular opening 220in'the side wall H2 of pedestal Hit. A fiat spring 222 is'riveted at 224 to the inner side-of pedestal wall H2 and urges the-02111258 outwardly against the inner surface of side wall is of the movable housing 16$. This frictional engagement between the ball2-i-3 and the overlapping wall portion I68 of the housing tends 'to resist relative movement between the parts and thus-cushions the movement ofthe' housing in both directions, particularly the movement towardretracted position under the influence of springs 92 and H18. The inner surface of overlapping side wall 168 may be provided with one or'more recesses 22!; and '228into which the ball 2H3 may snap to assist indetermining the operative and retracted positions of the housing.

Extending longitudinally and forwardly from the upper portion of the movable'mo-tor housing ISG'is a beater-supporting gear casing 230. This casing extends to a point above the bowl support'zt'and supports a ve'rtical'power shaft 232 above the bowl support. Shaft 232 includes a slot or other driving connection 234 at its upper end to which an operating accessory may be attached. The power'shaft 232 is supported bya thrustbearing 236 in the end of casing 23!].

' At thelower end of power shaft'232 is a planetary head 238 which is'keyed to the vshaft by a shear pin 239. A beater drive 240 is rotatable on a vertical axis offset from the power shaft axis 232 in the planetaryhead 238. This beater drive shaft 249' is adapted for removable engagement with the shaft 242 :of beater 2'10, suitable clamping: means 244 being provided to hold the beater 72-min :positionwith the beatershaft in interlocking engagement withthe drive shaft 240 in known manner.

A pinion 246. at the upper end of beater drive shaft 240 engagesan internal ring gear 248 in the end of gear casing 230-andcauses rotation of the beater drive shaft and beater on its own axis at the same timethat the beater shaft revolves around theaxis of power shaft 232-as a result of movementof planetary head 238.

In order to connect the power shaft232= to the motor-shaft I84, suitable .drivingconnections are located in the upper portion ofthe housing and casing. Powershaft 2-32 includesaworm bear 250 which is driven by a'worm252- (Fig. '7)- journaled in the outer-end of the gear casing 230. Journaled in the housing is another worm gear 256 whose axis of rotation is in substantial alignment with :that 'of 'worm-252. Aflexible shaft 254 provides a driving connection between worm. gear 256 and'worrn 252. The gear 256 in -xturnis drivendirec'tly from a pinion 258 on the motor shaft I84.

'It will benotedthat both "the motor housing 460 and gear -casing 230 are of substantially open-topped construction. A cover 260 is removably mounted on the casing and housing to close the-openingsat the top thereof. 'Cover 260 in turn hasanopening 262 through which the upper-endof power shaft 232-is accessible for driving engagement with a desired accessory.

Also mounted. int-the casing 230 is "suitable controlling mechanism for the governor or, speed controldeviceof the motor. -A-longitudinally extending supporter-slide 264 extends substantially'the length-of the casing -l3il'and serves as. a slidable support for a control member 266 (Figs. 7 and 8). Control member 256 is slidable longitudinally of the casing on support 26 3 and includesaprojecting arm268-which extends outwardly through a slot 210 at the meetingline of'thecasing -230and cover- 260. A manual knob 212 is mounted-on-th e outer end of extension 268 for convenient manipulation by the user. Thus longitudinal .movement of knob 272 along the side-of casing 230 will: cause the control memher 266 to slide longitudinally along supportZM. Controlmember266 includes-aspeed control cam surface 2'14 and ran on-ofi lever extension 276. The. projection .or "extension 278 is'adapted to engage theactuatingarm 218 of a switch support 280 pivoted on--a -horizontal axis at-28-2 for tilting movement within the casing. A liquid contact switch 284=ismounted on the-switch support 280 and includes leads 2-86 and .288 connected in the motor circuitin known manner to openand close the circuit de-pendingonthe angular position of the liquid contactswitch 284. With the manual knob in the position shown in Fig. 8, v the extension-216engages"the on-off switch arm 218 and rocks the liquid contact switch 284 to its off position. As soon as the control knob 212 is movedtoward the front of the mixer a slight distance, the arm 216 will be disengaged from thelever arm 2'i8andw ermittheswitch-ZM to rockto its on position provided. the casing and housingare in the pperative-positionof Fig. 1. It will be-understood,thatinlcase the housing Hill and casing 230 have been tilted upwardly to their retracted "(amine-liquid contact switch 284 will be inclined to its "01f position so that the motor cirouit will be broken, even though manual knob "212 ie-at the forward. end of its slide where the motor would normally be in operation.

A speed control member 230 also extends substantially longitudinally of casing 233 and in-- cludes a cam or actuating surface 292 which is angularly disposed with respect to the path of movement of control member 256 on slide 234. Speed control member 299 is pivoted at its front end 294 to a depending bracket 2% on the supporting slide for control member 233. This slide support is fastened at 298 to the forward end of the casing 230.

Similarly, the rear end of the speed control lever 29!) is pivoted at 303 to another bracket 332 on supporting slide 264. Pivots 303 and 233 are of course in substantial alignment and constitute a pivotal axis for the member 233 which extends substantially longitudinally of the easmg 230.

The control member 239 includes a boss 334 in which a bolt 3% is adjustably mounted. A look nut308 serves to retain the bolt 333 in its ad'justed'position. The lower end of the adjustable bolt 306 is provided with an insulating button 3H! for engagement with one of the spring contact arms 3 l2. Spring contact arm 3 I2 is mounted on an insulating support 3M on either the motor 80 or housing I30. The switch arm M2 is resiliently biased upwardly so that its position at any time will be determined by the location of the insulating button 310. This location in turn is determined by the position to which the speed control lever 298 has been tilted about its longitudinal axis. This angular position of lever 233 in turn is controll d b the interengagement between the cam portion 214 on the control member 2G8, and the angularly disposed cam surface 292 of lever 235. As the control knob 212 is moved toward the forward end of the casing 230, the lever 29!] will graudally be rocked in a i direction such that the switch arm 312 will be depressed to a lower and lower position.

Switch arm 3l2 carries a contact 315 cooperating with another contact 318 on the movable switch arm 32! The position of switch arm 323 in turn is controlled by the engagement of a collar 322 which is actually slidable on motor shaft I84 in response to variations in the speed of the shaft in known manner. Thus the slidable collar 322 may be connected to governor weights 324 by radial springs 32%. The governor weights 324 in turn are connected by other radial springs 328 to an axially stationary collar 333 on the motor shaft. Thus as the speed of rotation of the shaft increases, the collar 32?. will be drawn downwardly as the weights 324 are forced outwardly. This downward movement of collar 322 .Will ultimatel move the switch arm 323 downwardly to break the motor circuit at the contacts 316 and 3l8 in response to a. predetermined. speed of rotation of the motor shaft. As will be readily understood, the particular speed of operation can thus be determined by the setting of the control knob 212 longitudinally of the casing 23! Since any desired governor mechanism may be utilized in the mixer of the present invention, the governor switch and governor weights and associated parts have been shown schematically purely for purposes of illustration. However, the particular location and arrangement of the control member 286 and speed control lever 233 in the projecting casing 230 of the motor housing I60 constitute an important part of the invention. It will be understood that the governor contacts 316 and 3! are connected in the motor 1G circuit in known manner to control its speed as desired.

With reference to the cover 253, novel means of attachment of the cover to the casing have been provided. In this case the forward end of the cover includes a substantially thickened portion 332 provided with an opening'334 in substantial alignment with a threaded attaching opening 333 in an attachment boss 333 at the outer end of casing 233. An attaching bolt 34!) projects downwardly through the cover opening 332 and is threaded into the recess 333 of boss 333 to retain the cover in position. According to the invention, the outer or upper portion of the passage 334 is substantially countersunk or recessed. as shown at 342 in order that the head of bolt 3% will be located substantially below the upper surface of cover 253. This countersunk portion 342 is then provided with means for attachment of a suitable accessory to the mixer casing. In this case the particular attaching means includes internal threads 344 in the countersunk portion 332. It will be noted that this countersunk portion is located substantially adjacent the power shaft 232 so that an accessory to be driven by power shaft 232 may readily be held in position by the use of a clamp threaded into the countersunk portion 352.

The cover 263, which is removably mounted on the open-topped housing and casing, includes a longitudinal recess 365, the front edge 343 of which is located just to the rear of the accessory drive opening 232. At the forward edge 348 of recess 343 openings or undercut portions 359 are provided for interfitting engagement with suitable projections on a removable insert described below. The forward end of cover 263 will, of course, be fastened to the casing by the retaining bolt 348 already described. At the rear end of the cover 260 the cross piece 352 is provided with openings 354 through which suitable bolts may be threaded into the attachment bosses 356 (Fig. 8) of the'rear wall of the motor housing 533. It will be noted that these openings 354 and the cross piece 352 are substantially below the upper surface of cover 263 so that they may be covered and concealed by the additional removable insert 358 which is mounted in the longitudinal recess 3-36. This removable insert 353 is preferably of plastic material and includes at its front end projections 350 adapted to interlook with the undercut portions 353 of the cover 233 to retain the forward end of the plastic insert 353 in position. Anopening 3 2 at the rear of the plastic insert provides means for passage of an attaching bolt which may be threaded into the attachment boss 334 in the rear wall of motor housing I59. The removable insert 358 also includes an opening 336 in substantial alignment with the motor shaft so that the motor shaft is accessible through opening 366 for driving engagement with a suitable accessory.

The rear end of the insert 358 extends outwardly at 338 beyond the rear wall of the motor housing H53 in orderto provide a handgrip protion by which the mixer may be moved from place to place. This projecting portion 358 also protects and conceals a ventilation opening 313 (Fig. 1) through which air may be introduced into the motor casing for ultimate discharge through the ventilation opening at the lower edge of the base 23.

A suitable scale 312 may be etched on the plastic insert 353 or provided on a separate scale member mounted in the recess 346 beneath the 11 insert. Scale 312 cooperates with. a; suitable pointer 31 3 on control knob 212 to indicate; the operative condition of themixer and: governor mechanism.

Accordingtothe foregoing description, a mixer construction has. been provided; which. oiTers definite advantages insimplici-ty, ease ofoperation,. and adaptability to'varicus-typesof attachments. The mixer: includes novel features of construction and improved methods of. adjustment which. facilitate. large scale; production of such an. item. by assembly. line. methods. The mixer, accomplished the objects set forthat. the beginning of. the: present specification: and provides; a: new: and. improved utensil for: performance: of a: large; number of household. functions in'a.moreefficientrmanner;.

Since minor variations and. changes? in. the exact-o details of; construction will be; apparent. to persons: skilled: in: thisfie1d it, is intended, that this invention shall cover: all such changes: and modifications: as: fall. within: the spirit; and: scope of? the; attached .1 claims.

Now; therefore, I claim:

1. A. food mixer comprising: a. base; a bowl support; atone end. of; the base; a heater supporting housing mounted: at the :other end: of the base for movement between operative and retracted positions with. respect to the bowl'support, means normally urging. the housing. from operative to retracted position; and areleasable latch. including: cooperating latch; members on the baseand housingfor. holding thehousing in operative-position, and means; for adjustment of one. of the cooperating; latch members to vary the. operative? position in which. the: housing: is hel'diby the latch:

2; A food. mixercomprising; a base, a bowl support at; one end? of: the: base;,aabeater supporting housing;mountedatthe other-endof the base; for movement. between. operative. and retracted'. positions: wi-tnrespeet tothe; bowl support; resilient means normally: urging; the housing from; operativeito'; retracted: position, and a releasable: latch: including; cooperating; latch members on. the. base... and; housing; for:- holding the-housing in; operative position; andmeans for adjustment of :one;.of.;ithe cooperating latch members"; to vary the." operative position in which. the housing is held by the? latch. against; the urging off-said resilient means:

3. A food mixer comprisinga base,.a-bowlsup port; at one end of thebase, a beater supporting housing'mountedf attheotherrendof the base for'rnovement along. a-given patn between operative. andv retracted. positions with, respect to the bowl support, means normally urgingthe. housing from operative: to: retracted; position; releasable latch means-holding; thehousing, in its operative position, and means-supporting sa-idlatch means for adjustment along;saidpathto-varv said operative position; with. respect to thevbowl support.

4. Aiood.mixeraccordingto claim 3- in. which said. latch; means is. supported for adjustment both along. said pathv and.transverselythereoi.

5; Afood mixer comprising aba'sera bowllsupport at one; end. of. the. base; a heater supporting housing. mounted at the other end of the base fori movement. along a given path between. op-

erative. and retracted; positions with respect to.

the bowl support, means normally urging the housing to retracted position, stopmeans limiting the; movement of the; housing toward the bowl support along saidpathgreleasable latchmeans holding; the h'ousingin its operativc positiom and.

12 meanssupporting at. least .one. of. saldstopimeans and latch means for adjustment both along. said path. and transversely thereof;

6. A food mixer. comprising. aibase'; abowlsupport at one end of. the-base, a beater. supporting housing. mounted. at. the other end of the base for movement. along a given. pathv between... operative and retracted positions withrespect. to the bowl support. means normally urging. the housing. to retracted vposition,stopsmeans. limiting the movement of. the housing. toward the bowl support along said path, releasable.- latchmeans holding. the. housing in .its operative position and meanssupportingboth. saidstop. means. and. said latch. means for; adjustment along: saidl path.

A food. mixer. according; to. claim. 6'. in. which the stopmeans andLlatch.meansareindependent- 1y. adjustable.alongsaidpath.

8. A food mixer comprising a base, a bowl support .at. thev front. of. the base,,a..stationary, hollow pedestal .at the-Learnt, the; bas.e, an.upright housing. having abeater. supporting casing: projecting above the; bowl. support. the housing. being. pivoted to. the. pedestaL for tilting. on a predeterminedaxis betweenoperating.andiretracted positions. with. respect to. the. bowl supportthe. pedestal having a, front wall. with. a. latch. opening therethrough, and a first. latch member. inside the pedestal opposite the latch opening. and the housing having. a skirt externally overlapping the front pedestal. Wall and. having, a, second latch member. engaging the first latch through the opening, to hold the housing. in: operating position and manually operable. means disengaging the latch membersfor movement ofthe housing to retracted position.

9. A food mixer according to claim 8 inwhich said. predetermined axis is. horizontal; is; located at the rear of the pedestal, and. extends transversely of the. base.

10. Aiood mixer accordingtoclaim 9. inwhich the axis is higher thanthe latch opening above the base.

11. A food mixer. comprising a-,base member, .a bowl support at one. end of... the. base, abe'ater supporting member housing mounted. atthe other end. of. thebase member for movement along, a given path between operating andretractedZpositions with. respect. to the bowl. support. and; r.eleasable. latch. means. holding. the housing member in operating position, the latch meanai'neluding a supportingseat on one ofsaid base-and housing members and a latch support mounted on the. seat, the seat having a fulcrum engagingone part. of the latch support. and, adjustable fastening means engaging. anotherv part of. thelatch support for rocking adjustment of. the support on said fulcrumi.

12. A food mixer accordingtoclaim-11. in,-which theseat includes. adjustable bolts. at eachv side ofv the. fulcrum, and the latch. support. has. slots through which. the bolts project, the slots, permitting sliding adjustment of. the latch. support and the-fulcrum permitting. pivotal. adjustment thereof..

13-. A food mixer comprising, a, base, a. bowl support atv one. end. of the--base,. and a. beatersupporting housing at. the. other end. of.-v the. base, the bowl support having apluralitv of clamps radially. slidable with. respect to. the: center. of the support, and a. control. platerotatably mounted with respect tolsaidcenter, the plate having a handle portion for rotation of. the plate between first and second positions,v and interengaging cam portions on. the clamps and, the. plate for. movement of the clamps between respective bowlclamping and bowl-releasing positions in response to movement of the handle between said first and second positions.

14. A food mixer according to claim 13 including resilient means urging the control plate and handle toward bowl-clamping position.

15. A food mixer according to claim 13, including overcenter spring means holding the control plate in whichever of said first and second positions it is placed by the operator.

16. A food mixer according to claim 13, in which the bottom of the bowl support has radial grooves in which the clamps are mounted, the clamps have projecting pins thereon, and the control plate overlies the clamps and has angular cam slots into which the pins project.

17. A food mixer according to claim 16 having a single fastening member passing through the center of the control plate into the bottom of the bowl support and holding the parts in assembled position.

18. A food mixer comprising a base, a bowl support at one end of the base, beater-supporting housing mounted at the other end of the base for movement between operating and retracted positions with respect to the bowl support, a latch movably mounted on the base for movement between a first position in which the latch holds the housing in operating position and a second position in which the housing is released for movement to retracted position, bowl-clamping means at the bowl support including a control plate rotatably mounted for movement between bowl-clamping and bowl-releasing positions, and l a link having one portion connected to the control plate and another portion connected to the latch for movement of the latch from first to second position in response to movement of the plate from clamping to releasing position.

19. A food mixer according to claim 18 in which the link is eccentrically pivoted to the control plate.

20. A food mixer according to claim 18 in which the underside of the base is provided with radial grooves beneath the bowl support and bowl clamps radially slidable in the grooves and having bowl-engaging hooks projecting through the base above the support and operating pins projecting below the clamps, the control plate being pivoted on a vertical axis at the center of the radial grooves overlying the clamps and having circumferential cam slots into which the clamp pins project and an eccentric opening, the link having a pin projecting into the eccentric opening.

21. A food mixer according to claim 20 in which the underside of the base has another groove in which the link is slidably retained between the base and clamping plate.

22. A food mixer comprising a base, a stationary hollow pedestal at one end of the base having a side wall, a beater-supporting housing pivoted to the pedestal on a transverse horizontal axis for tilting movement between operating and retracted positions with respect to the other end of the base, the housing having a side wall overlapping the pedestal side wall, and interengaging means between the overlapping side walls retarding movement of the housing between said positions.

23. A food mixer according to claim 22 in which one of the side walls has an opening at a point overlapped by the other wall in both said positions, the interengaging means comprising a brake member projecting through the opening and frictionally engaging the overlapping Wall, and means resiliently urging the brake member against said wall.

24. A food mixer according to claim 23 in which the brake member is a ball seated in the opening and the resilient means includes a leaf spring fastened to the wall adjacent the opening and extending across the opening opposite the overlapping wall.

25. A food mixer according to claim 23 in which the overlapping wall has a recess into which the brake member projects to determine at least one of said housing positions.

26. A food mixer comprising a base, an upright hollow housing at one end of the base having a longitudinally projecting beater-supporting casing extending above the other end of the base, a motor mounted in the housing with the motor shaft substantially vertical, governor means mounted on the motor shaft in the housing, and governor control means mounted in the casing and including an external control member mounted for sliding movement along a path longitudinally of the casing.

27. A food mixer according to claim 26 in which the governor control means also includes an operating lever extending longitudinally of the casing and pivoted on a longitudinal axis angularly disposed with respect to said path, the external control member and lever having interengaging cam portions rocking the lever on its axis in response to sliding movement of the member, and means on the lever cperatively connected to the governor means for setting the operating conditions of the latter.

28. A food mixer comprising a casing, speed control means within the casing, an external control member mounted for sliding movement along a path longitudinally of the casing, and an operating lever also extending longitudinally of the casing and pivoted on a longitudinal axis angularly disposed with respect to said path, the control member and lever having interengaging portions rocking the lever on its axis in response to sliding movement of the member, and means operatively connecting the lever to the speed control means.

WALTER VAN GUILDER.

REFERENCES CITED The following references are of record in the file of this patent:

UNITED STATES PATENTS Number Name Date 1 1,882,127 Emmons Oct. 11, 1923 1,977,419 Adams et al Oct. 16, 1934 2,046,784 Krause July '7, 1936 2,131,290 Kochner et a1. Sept. 27, 1938 2,184,669 Hansen Dec. 26, 1939 2,270,980 Tidbal Jan. 27, 1942 2,292,566 Jordan Aug. 11, 1942 2,306,245 Duke Dec. 22, 1942 

